Environmental Research,
Journal Year:
2024,
Volume and Issue:
259, P. 119439 - 119439
Published: June 18, 2024
Increasing
amounts
of
wastewater
is
the
most
pervasive
and
challenging
environmental
problem
globally.
Conventional
treatment
methods
are
costly
entail
huge
energy
carbon
consumption
greenhouse
gas
emissions.
Owing
to
their
unique
ability
capturing
resource
recovery,
microalgae-microbiome
based
a
potential
approach
widely
used
for
carbon-neutral
treatment.
Microalgae-bacteria
synergy
(i.e.,
functionally
beneficial
microbial
synthetic
communities)
performs
better
enhances
carbon-sequestration
nutrient
recovery
from
plants.
This
review
presents
comprehensive
information
regarding
as
sustainable
agent
discusses
synergistic
approaches
effective
removal.
Moreover,
this
discusses,
role
omics-biology
Insilco
in
unravelling
understanding
algae-microbe
synergism
response
toward
Finally,
it
various
microbiome
engineering
developing
microalgae-bacteria
partners
sequestration
wastewater,
summarizes
future
research
perspectives
on
bioremediation.
Green Carbon,
Journal Year:
2024,
Volume and Issue:
2(2), P. 149 - 163
Published: May 23, 2024
Cyanobacteria
are
promising
oxygenic
phototrophs
for
the
production
of
various
compounds.
For
their
(photo)biotechnological
exploitation,
molecular
tools
required,
such
as,
introduction
and
expression
heterologous
genes,
or
modulation
enzyme
activities
entire
pathways.
Concepts
strategies
development
photosynthetic
biomanufacturing
technologies
based
on
cyanobacteria
have
been
extensively
reviewed,
as
well
certain
specialized
aspects
genetic
manipulation.
However,
options
metabolically
engineered
specific
cyanobacterial
cells
still
less
developed
than
those
other
bacteria
biotechnological
relevance.
In
addition
to
standard
toolbox
"classical"
metabolic
engineering,
we
emphasize
aspects,
including
recently
vector
systems
extrachromosomal
maintenance
genes
approaches
Clustered
Regularly
Interspaced
Short
Palindromic
Repeats
(CRISPR)
interference.
We
highlight
custom
strains
products,
discuss
emerging
use
small
regulatory
proteins
that
appear
advanced
engineering
promote
product
formation,
provide
an
overview
suitable
online
resources.
Furthermore,
current
trends
in
this
field
indicate
potential,
using
sensors
enable
systematic
screening,
optimization
approaches.
Plant Science,
Journal Year:
2023,
Volume and Issue:
335, P. 111815 - 111815
Published: Aug. 3, 2023
Synthetic
biology
and
metabolic
engineering
promise
to
deliver
sustainable
solutions
global
problems
such
as
phasing
out
fossil
fuels
replacing
industrial
nitrogen
fixation.
While
this
is
real,
scale
matters,
so
do
knock-on
effects
of
implementing
solutions.
Both
can
be
estimated
by
'Fermi
calculations'
(aka
'back-of-envelope
calculations)
that
use
uncontroversial
input
data
plus
simple
arithmetic
reach
rough
but
reliable
conclusions.
Here,
we
illustrate
how
done
informative
it
using
two
cases:
oilcane
(sugarcane
engineered
accumulate
triglycerides
instead
sugar)
a
source
bio-jet
fuel,
fixation
bacteria
in
mucilage
secreted
maize
aerial
roots.
We
estimate
could
meet
no
more
than
about
1%
today's
U.S.
jet
fuel
demand
if
grown
on
all
current
sugarcane
land
that,
cane
were
expanded
two-thirds
demand,
the
fertilizer
refinery
requirements
would
create
large
carbon
footprint.
Conversely,
aerial-root
replace
up
10%
applied
maize,
2%
plant
income
used
for
growth
suffice
fixation,
extra
consumption
likely
reduce
grain
yield
only
slightly.
Bioresource Technology,
Journal Year:
2024,
Volume and Issue:
399, P. 130641 - 130641
Published: March 27, 2024
This
study
presents
a
cost-effective
strategy
for
producing
organic
acids
from
glucose
and
xylose
using
the
acid-tolerant
yeast,
Issatchenkia
orientalis.
I.
orientalis
was
engineered
to
produce
lactic
acid
xylose,
resulting
strain,
SD108XL,
successfully
converted
sorghum
hydrolysates
into
acid.
In
order
enable
low-pH
fermentation,
self-buffering
strategy,
where
generated
by
SD108XL
strain
during
fermentation
served
as
buffer,
developed.
As
result,
SD108
produced
67
g/L
of
73
40
simulating
sugar
composition
biomass
hydrolysates.
Moreover,
techno-economic
analysis
(TEA)
underscored
efficiency
in
streamlining
downstream
process,
thereby
reducing
production
costs.
These
results
demonstrate
potential
platform
cellulosic
Environmental Research,
Journal Year:
2024,
Volume and Issue:
259, P. 119439 - 119439
Published: June 18, 2024
Increasing
amounts
of
wastewater
is
the
most
pervasive
and
challenging
environmental
problem
globally.
Conventional
treatment
methods
are
costly
entail
huge
energy
carbon
consumption
greenhouse
gas
emissions.
Owing
to
their
unique
ability
capturing
resource
recovery,
microalgae-microbiome
based
a
potential
approach
widely
used
for
carbon-neutral
treatment.
Microalgae-bacteria
synergy
(i.e.,
functionally
beneficial
microbial
synthetic
communities)
performs
better
enhances
carbon-sequestration
nutrient
recovery
from
plants.
This
review
presents
comprehensive
information
regarding
as
sustainable
agent
discusses
synergistic
approaches
effective
removal.
Moreover,
this
discusses,
role
omics-biology
Insilco
in
unravelling
understanding
algae-microbe
synergism
response
toward
Finally,
it
various
microbiome
engineering
developing
microalgae-bacteria
partners
sequestration
wastewater,
summarizes
future
research
perspectives
on
bioremediation.
